KR20150076545A - Combustion flame guide for rocket engine testing equipment - Google Patents

Abstract

The present invention relates to a flame guidance system for a rocket engine combustion testing facility, including: a base frame installed below a rocket engine; a flame guidance member supported by the base frame to form a flow space inside; and a cooling part for supplying a coolant to the flow space inside the flame guidance member to cool the flame guidance member. According to the present invention, the flame guidance system for a rocket engine combustion testing facility reduces maintenance cost and time by allowing the exclusive replacement of a deformed or damaged flame guidance member when the flame guidance member is deformed or damaged by a flame of a rocket engine as a plurality of flame guidance members is connected together to guide a flame of the rocket engine.

Description

[0001] Combustion flame guide for rocket engine testing equipment [

The present invention relates to a flame inducing device for a rocket engine combustion test facility, and more particularly, to a flame inducing device for a rocket engine combustion test equipment, The present invention relates to a flame inducing device for a rocket engine combustion test equipment capable of replacing only a deformed or broken flame guiding member when deformed or broken, thereby reducing maintenance costs and shortening the maintenance time.

Generally, the rocket engine combustion test equipment is for combustion test of a rocket engine. The test equipment is equipped with a flame guide device for guiding the flame injected from the rocket engine to the outside.

Various techniques have been developed for such a flame induction apparatus.

This flame inducing device is shown in Fig.

The conventional flame guiding apparatus includes an installation frame 30 installed at the lower part of the rocket 10 and a flame induction plate 20 supported at an inclination to the installation frame 30. [

In the conventional flame induction device configured as described above, the flame injected from the rocket engine 10 is guided by the flame induction plate 20 and discharged to the lower side of the rocket 10

At this time, the flame of the rocket engine 10 is injected at high temperature, high pressure and high speed and may be exposed to the flame for a long time, so that a part of the flame induction plate 20 is deformed or broken.

The conventional flame inducing apparatus is required to replace the entire flame guide plate 20 even if only a part of the flame guide plate 20 is deformed or broken because the flame guide plate 20 is integrally formed, There is a problem that the maintenance time is increased and it is not economical.

Korean Patent Publication No. 2005-0064537

SUMMARY OF THE INVENTION It is an object of the present invention to provide a rocket engine in which a plurality of flame guiding members are interconnected to induce a flame of a rocket engine by a combination thereof, Or a flame guiding member which is deformed or broken at the time of breakage so that the maintenance cost can be reduced and the maintenance time can be shortened.

According to the present invention, the above object can be accomplished by providing a base frame installed at a lower portion of a rocket engine; A flame inducing member supported by the base frame and having a flow space formed therein; And a cooling part for cooling the flame inducing member by supplying cooling water to the internal flow space of the flame guiding member.

Here, the plurality of flame inducing members may be provided in multiple stages so that each flame inducing member has a step.

Here, the flame guiding member may include a lower plate supported by the base frame; An upper plate spaced apart from the upper portion of the lower plate to create a flow space therebetween; And a plurality of partition walls interposed between the lower and upper plates to define the flow space.

The partition walls may be spaced apart from each other at equal intervals.

The cooling unit may include a cooling passage formed at one side of the flame guide member to communicate with an internal flow space of the flame guide member. And a cooling water supply line connected to the cooling channel to supply cooling water to the cooling channel.

In addition, the flame guiding member may be supported to be inclined to the base frame.

Further, a side guide member may be further provided on both sides of the flame guiding member to extend in the upward direction.

Thus, by connecting the plurality of flame guiding members to each other, it is possible to replace only the flame guiding member deformed or broken when the flame guiding member is deformed or damaged by the rocket flame, The cost can be reduced and the maintenance time can be shortened.

1 is a view showing a conventional flame induction device.
2 is a perspective view of a flame induction device for a rocket engine combustion test facility according to the present invention.
3 is a partial cross-sectional view of a flame induction apparatus for a rocket engine combustion test facility according to the present invention.
4 is a view showing each flame inducing member of the flame inducing device for a rocket engine combustion test equipment according to the present invention.
5 is an operational state diagram of a flame induction device for a rocket engine combustion test facility according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or preliminary meaning and the inventor shall properly define the concept of the term in order to describe its invention in the best possible way The present invention should be construed in accordance with the spirit and concept of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, a rocket flame induction device according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 2 to 4, the flame induction apparatus for a rocket engine test facility according to the present invention includes a base frame 100 installed at a lower portion of a rocket engine, And a cooling unit for cooling the flame inducing member 200 by supplying cooling water to the flame inducing member 200 and the internal flow space 250 of the flame guide member 200 in which the flame inducing member 250 is formed.

First, the base frame 100 is a steel structure formed in a substantially right triangular shape, and is installed at a lower portion of a rocket (not shown in FIG. 1). At this time, the base frame 100 is installed such that the hypotenuse is positioned below the rocket. Since the base frame 100 is for supporting the flame guiding member 200 so as to be inclined, the shape of the base frame 100 may not necessarily be a right triangle. That is, the shape of the flame guiding member 200 is not limited as long as it can support the flame guiding member 200 in an inclined manner. In the present embodiment, the base frame 100 is described as a steel frame structure, but the present invention is not limited thereto.

Meanwhile, the flame inducing member 200 includes a lower plate 210, an upper plate 220, and a partition 230.

The lower plate 210 is a rectangular plate having a predetermined thickness and is installed on the upper part of the base frame 100 and supported by the base frame 100. At this time, the width of the lower plate 210 is set to correspond to the width of the base frame 100 to cover the entire upper region of the base frame 100.

The upper plate 220 has the same shape as the lower plate 210 and is spaced apart from the upper plate 210 by a predetermined distance to form a flow space 250 between the lower plate 210 and the lower plate 210. [ do. The upper surface of the upper plate 220 is in direct contact with the flame of the rocket.

The partition 230 is a rectangular block having a height corresponding to the height of the flow space 250 and is provided between the lower plate 210 and the upper plate 220. At this time, the partition walls 230 are spaced apart from each other at equal intervals to uniformly partition the flow space 250.

The plurality of flame guide members 200 formed as described above are installed to be connected to each other, and each flame guide member 200 is installed in multiple stages so as to have a step. 3, one flame guiding member 200 is fixed to the base frame 100 by a coupling bolt 120, and the other flame guiding member 200 ' And is fixed to the base frame 100 by the coupling bolts 120 '. At this time, the stepped block 110 is disposed below the other flame inducing member 200 ', and the other flame inducing member 200' is arranged so as to be upwardly increased by the thickness of the stepped block 110. That is, each of the flame inducing members 200 and 200 'is disposed in parallel to the base frame 100 and fixed to the base frame 100. At this time, the installation height of the flame inducing members 200 and 200' So that they have mutual steps.

The plurality of flame guide members 200 installed as described above are installed to be inclined to the base frame 100 and directly contact the flame injected from the rocket to guide the flame in an inclined direction.

The cooling unit includes a cooling channel 300 formed at a lower portion of each flame guide member 200 and configured to communicate with an internal flow space 250 of each flame guide member 200 and a cooling channel 300 connected to the cooling channel 300. [ And a cooling water supply line 310 for supplying cooling water to the cooling channel 300.

The cooling passage 300 is formed on the upper side of each flame guide member 200 and is formed to be recessed along the width of each flame guide member 200. That is, the upper side of the lower plate 210 is recessed along the width of the lower plate 210 to form the cooling channel 300. The cooling passage 300 is formed to communicate with the internal flow space 250 of the flame guide member 200.

The cooling water supply line 310 is a pipe in which a transfer space is formed. One side of the pipe is connected to the cooling channel 300. The other side of the pipe is connected to a cooling water supply pump (not shown) To the cooling channel (300).

5, the cooling water supplied as described above is uniformly supplied to the entire area of the cooling passage 300 and then is moved through the respective flow spaces 250 partitioned by the partition 230, (200). The cooling water that has been moved through the internal flow space 250 of the flame guide member 200 and has cooled the flame guide member 200 flows to the upper surface of the other flame guide member 200 installed at the lower portion, 200, that is, the outer surface of the upper plate 220 is once again cooled.

Further, on both sides of the flame inducing member 200, a side guide member 240 is further provided which extends in the upward direction. The side guide member 240 is a plate having a predetermined thickness and is fixed along both side edges of the flame guide member 200 in a direction perpendicular to the flame guide member 200. The side guide member 240 formed as described above prevents the flame induced by the flame guiding member 200 from being discharged to the side of the flame guiding member 200.

The flame inducing device for the rocket engine combustion test equipment according to the present invention, which is constructed as described above, interconnects the plurality of flame guiding members 200 to induce the flames of the rocket by the combination thereof, It is possible to replace only the flame guiding member 200 deformed or broken when the flame guiding member 200 is deformed or broken, thereby reducing the maintenance cost and shortening the maintenance time.

The preferred embodiments of the flame inducing device for the rocket engine combustion test equipment according to the present invention have been described above.

The foregoing embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing detailed description. It is intended that all changes and modifications that come within the meaning and range of equivalency of the claims, as well as all equivalents thereof, be within the scope of the present invention.

10: Rocket engine 20: Flame induction plate
30: installation frame 100: base frame
110: step block 120: engaging bolt
200: a flame inducing member 210: a lower plate
220: upper plate 230: partition wall
240: side guide member 250:
300: Cooling channel 310: Cooling water supply line

Claims (7)

A base frame installed at a lower portion of the rocket engine;
A flame inducing member supported by the base frame and having a flow space formed therein; And
And a cooler for supplying cooling water to the internal flow space of the flame guiding member to cool the flame guiding member.
The method according to claim 1,
Wherein a plurality of the flame inducing members are provided and connected to each other, wherein each flame guiding member is installed in multiple stages so as to have a step difference.
The method according to claim 1,
The flame-
A lower plate supported by the base frame;
An upper plate spaced apart from the upper portion of the lower plate to create a flow space therebetween; And
And a plurality of partition walls interposed between the lower and upper plates to partition the flow space.
The method of claim 3,
Wherein the partition walls are spaced apart from each other at equal intervals.
The method according to claim 1,
The cooling unit includes:
A cooling passage formed at one side of the flame guiding member and communicating with the internal flow space of the flame guiding member; And
And a cooling water supply line connected to the cooling channel for supplying cooling water to the cooling channel.
The method according to claim 1,
Wherein the flame guiding member is supported to be inclined to the base frame.
The method according to claim 1,
And a side guide member extending upwardly on both sides of the flame inducing member.

Images